The processes and mechanisms that control the growth of woody plants are of crucial importance for both economic and biological reasons. The comprehensive coverage of Growth Control in Woody Plants includes discussion of the growth controlling factors in both reproductive structures (flowers, fruit, seeds, pollen, etc.) and vegetative organs (stems, branches, leaves, and roots). Other major topics covered include seed germination, seedling growth, physiological and environmental regulation of growth, cultural practices, and biotechnology.
This comprehensive treatment of the many factors that control the growth of woody plants can serve both as a valuable text and as a frequently used reference.
* Includes comprehensive representation of a broad subject
* Provides thorough bibliographic coverage
* Well illustrated
* Serves as a vital companion to Physiology of Woody Plants, Second Edition

The importance of carbon dioxide extends from cellular to global levels of organization and potential ecological deterioration may be the result of increased CO2 in our atmosphere. Recently, the research emphasis shifted from studies of photosynthesis pathways and plant growth to ground-breaking studies of carbon dioxide balances in ecosystems, regions, and even the entire globe.
Carbon Dioxide and Terrestrial Ecosystems addresses these new areas of research. Economically important woody ecosystems are emphasized because they have substantial influence on global carbon dioxide balances. Herbaceous ecosystems (e.g., grasslands, prairies, wetlands) and crop ecosystems are also covered. The interactions among organisms, communities, and ecosystems are modeled, and the book closes with an important synthesis of this growing nexus of research.
Carbon Dioxide and Terrestrial Ecosystems is a compilation of detailed scientific studies that reveal how ecosystems generally, and particular plants specifically, respond to changed levels of carbon dioxide.
Key Features
* Contributions from an international team of experts
* Empirical examination of the actual effects of carbon dioxide
* Variety of terrestrial habitats investigated
* Specific plants and whole ecosystems offered as studies

Coniferous forests are among the most important of ecosystems. These forests are widespread and influence both the financial and biological health of our globe. This text focuses attention on conifers and how these trees acquire, allocate and utilize the resources that sustain this crucial productivity. An international team of experts has surveyed and synthesized the information from an expanding area of inquiry. The first half of the book describes how resources are acquired both by means of photosynthesis and through root systems. The latter half of the volume focuses upon how resources are stored and used. As conifers continue as a resource and ever increasingly important contributor to the regional and global environment sustainability, this book should help establish how much sustainability can be expected and maintained.

Conifers--pine, fir, and spruce trees--are dominant species in forests around the world. This book focuses on the physiology of conifers and how these physiological systems operate. Special consideration is devoted to the means by which ecophysiological processes influence organismal function and distribution. Chapters focus on the genetics of conifers, their geographic distribution and the factors that influence this distribution, the impact of insect herbivory on ecophysiological parameters, the effects of air pollution, and the potential impact that global climatic changes will have upon conifers. Because of the growing realization that forests have a crucial role to play in global environmental health, this book will appeal to a developing union of ecologists, physiologists and more theoretically minded foresters.

This book presents a whole-plant perspective on plant integrated responses to multiple stresses, including an analysis of how plants have evolved growth forms and phenological responses to cope with changing stress patterns in natural environments.
Key Features
* Explores stress responses at both the structural and process levels
* Outlines structural, phenological, and physiological responses that optimize production under multiple stresses
* Combines physiological and evolutionary perspectives